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Robot Lawn Mower At UF Designed To Change Suburban Landscape

Date:

August 8, 1997

Source:

University Of Florida

Summary:

George Jetson, eat your heart out. A robot lawn mower called LawnNibbler, developed at the University of Florida's Machine Intelligence Laboratory, can cut your grass intelligently -- avoiding dogs, kids, trees and birdbaths -- while you're out on the golf course or taking the kids to soccer practice.

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A robot lawn mower called LawnNibbler, developed at the University of Florida's Machine Intelligence Laboratory, can cut your grass intelligently -- avoiding dogs, kids, trees and birdbaths -- while you're out on the golf course or taking the kids to soccer practice.

"The LawnNibbler can provide a substitute for the majority of the work a person does caring for a lawn," said Kevin Hakala, the graduate student who designed and built LawnNibbler for his engineering master's thesis, written under the guidance of Professor Keith L. Doty, laboratory director. "It will trim the grass in a defined area while avoiding obstacles such as trees, children, toys or pets. It uses two smart systems: one to tell it where it is and another to tell it what to avoid."

Hakala said LawnNibbler promises to be the first low-cost and efficient robot lawn mower. It uses a radio wire buried at the perimeter of its work area and a navigational beacon system using sonar and infrared emitters and detectors to tell it where it is in its environment.

"LawnNibbler uses signals to treat the buried wire as an obstacle that it cannot cross," Hakala said. "It moves straight ahead until its sonar senses a beacon in its work environment or an obstacle."

Beacon or obstacle identified, LawnNibbler makes the appropriate turns and continues. Additionally, LawnNibbler can keep track of where it has already cut. LawnNibbler's navigation system scans its surroundings with sonar pulses. If a beacon in the yard "hears" the sonar, the beacon replies with an infrared light. The infrared light also provides LawnNibbler with its obstacle avoidance mechanism.

Hakala said that the mower, driven by a rechargeable battery-powered electric motor and humming along at 1 foot per second, has the power to cover rough terrain and climb a 15-degree angle.

"Robots of the future are becoming today's reality," said Hakala, who described his LawnNibbler's beacon navigation system as "cheap and accurate." LawnNibbler, he added, is more intelligent and less expensive than earlier commercial models.

"Previous attempts at robot lawnmowers have been limited because of the absence of a navigation system," said Hakala. "Those robot lawnmowers only knew the boundary of their work area when they approached it. They did not have the intelligence to know where they were in their environment. Because of the beacon navigation system, LawnNibbler knows where it is."

Hakala added that the beacon systems used by his LawnNibbler are a stepping stone to a future where robots will be able to sense their environment as humans do, by using landmarks.

"LawnNibbler will likely have its market entry through industrial and commercial uses, mostly because of the safety issues," said Scott Jantz, a UF engineering graduate student who worked on the LawnNibbler with Hakala.

"Golf course care is an obvious application. LawnNibblers can go to work when no one is on the course. It could also be used in restricted industrial or military areas, or even in areas where foliage is contaminated and should not be touched by humans."

With the outdoors under robotic control, Jantz said, researchers are tackling another project to bring similar Jetson-esque technology to indoor tidying chores: "We're working on a vacuum cleaner."

-30-

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Story Source:

The above story is based on materials provided by University Of Florida. Note: Materials may be edited for content and length.

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